DE3110820A1 - Method and electrically conductive wire for detecting the position of an electrically insulating continuous object laid underground - Google Patents

Abstract

A method for detecting an underground continuous long object (2) comprises the steps of producing an electrically conductive wire (1) which is formed by covering a flexible metallic core wire (17) with an external coating layer (18) made from a flexible and electrically conductive high-polymer organic material, of arranging this electrically conductive wire (1) under the ground along the underground continuous object (2) of feeding a high-frequency current to the electrically conductive wire (1), and of receiving the electromagnetic waves emitted therefrom for the purpose of detecting the position of the underground elongated object (2). Thus, electric current is led through the ground via the coating layer (18) of the wire (1) by applying a high-frequency current to the wire (1), thus rendering it possible for the position of the elongated objects (2) which are laid underground to be detected from the surface of the ground even in the case when the wire (1) is cut through. <IMAGE>

Description

Osaka Gas Company Limited Osaka, Japan

Method and electrically conductive wire for detection the location of an electrically insulating, underground, continuous object

The invention relates to a method for detecting the position of an underground electrical insulating continuous or very long object from the earth's surface through the use of electromagnetic Waves and on an electrically conductive wire for arrangement along the passing object for Implementation of the procedure

Usually, the aforementioned electrically conductive wires are generally used for underground pipelines made of synthetic resin, which are used to promote town gas or town water, for example.

According to the prior art, an arrangement is known according to which a metallic wire is applied to the circumferential surface an underground pipe made of synthetic resin is laid along the axis of the pipe in a state that the Disappearance of the bare ^ wire due to corrosion in the The passage of time is inevitable.

According to another known arrangement, the electrically conductive wire is provided with an electrically insulating one Plastic material coated to prevent corrosion of the wire underground. In the case of the above described known arrangement, however, if the electrically conductive wire accidentally break or cut through excavation or excavation work in the ground should be, the propagation of the electric current completely interrupted, which consequently also the generation of electromagnetic waves is canceled, so that it becomes completely impossible to determine the location of the isolated To capture wire from the surface of the earth.

When the frequency of the electromagnetic wave is made extremely high, it may become possible to feed the current from a cut end of the conductive wire its other end of the cut through the ground. However, in the case where the electromagnetic Waves of such extremely high frequencies are to be used, another problem is that it becomes difficult to detect the conductive wire over a long distance from the point of the power source.

In addition, it is necessary to connect the electrically conductive wires to one another, first their to remove outer coating layers for the electrical connection of the core wires, whereby it is also necessary is to cover the connected parts with a sealing compound or the like to protect against corrosion, so that significant Working hours are required for the connection work.

In addition, in cases where steel pipes are connected to plastic pipes, it has been common practice to the bare wire or the wire covered with the outer coating layer along the plastic pipe is intended to be connected to the steel pipe by soldering or a thermite welding process, and therefore the connection work is undesirably further complicated.

It is therefore the object of the invention to provide an improved method for detecting a buried underground continuous long object overcoming the mentioned technical problems and also an electrical one develop conductive wire for this detection for use in this detection procedure. Also is The object of the invention is to provide an electrically conductive wire for detecting an elongated wire laid underground To develop the object of the type explained above, which has electrical conductivity and is free from undesirable corrosion.

The object of the invention, with which this object is achieved, is initially a method for detecting the position of a

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Object of continuous length underground by means of electromagnetic waves emitted by a wire laid along the object, marked, that the electrically conductive wire by covering a flexible metallic core wire with a outer coating layer made of a flexible and electrically conductive high polymer organic material, arranges the electrically conductive wire underground along the underground object, a high frequency current to the electrically conductive wire supplies and emitted electromagnetic waves from it to detect the object laid underground catches.

You can switch the high frequency current between the Feed in the ends of the electrically conductive wire.

According to the invention, electrical current is thus passed through the ground by means of the coating layer of the prahtes conducted when high frequency electricity is supplied to the wire, which makes it possible to locate the underground Detect laid objects from the surface of the earth even if the wire is cut.

The invention also relates to an electrically conductive wire for carrying out this method the characteristic that it has a flexible metallic core wire and one on the flexible metallic core wire Applied outer outer layer made of a flexible and electrically conductive high polymer en organic Having material.

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The outer coating layer of the electrically conductive wire can be produced by optionally mixing carbon powder or metal powder into synthetic resin or rubber. The outer coating layer preferably has a resistivity in the range between approximately over 10 JX. cm and below 50,000 JX .. cm, in particular approximately 100Jl * cm.

Since the coating layer is made of a high polymer organic Material with electrical conductivity exists, there is no way that it can for example disappears due to roasting or the like when buried, and therefore the conductive wire can be used semi-permanently without losing its electrical conductivity. Besides, it's due the fact that this coating layer itself is also electrically conductive, even in the case where the conductive wire randomly, e.g. B. during excavation work, etc., is cut through, possible that the electrical Current from the coating layer on one cut end of the conductive wire to the coating layer on the other End flows through the ground and therefore electromagnetic waves are generated by the electric current, whereby it is made possible to grasp the position from the surface of the earth. In addition, when connecting the electrically conductive wires, since their coating layer is electrically conductive, those to be connected to each other Wires- just bring them into mutual contact, and a direct connection between the core wires is not absolutely necessary, so that such a connection is extremely easy. In addition, you can the flexible core wires and cladding layers readily along the underground

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laid elongated objects are arranged, which facilitates the installation work for it leads. Further, in order to electrically connect the conductive wire to the metallic pipes and the like. the conductive wire just to be placed around the metallic pipe to allow the electric current to flow cause what sarbei th means a considerable simplification of the connection.

The invention is explained in more detail with reference to the exemplary embodiments illustrated in the drawing; show in it:

Fig. 1 is a schematic side view for illustration the principle of detecting the position of a pipe laid underground using an electric conductive wire according to a preferred embodiment of the invention;

Fig. 2 is a fragmentary side view showing, on an enlarged scale, the state how the conductive wire is provided on the pipe;

Fig. 3 is a view similar to Fig. 2 particularly showing a modification of this arrangement;

Fig. 4 is a side view, partly broken away, showing the structure of the conductive Wire according to a preferred embodiment of the invention;

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Fig. 5 is a perspective view showing the structure of a connection between the conductive wires; and

Fig. 6 is a fragmentary side view for illustrative purposes the connection between a conductive wire and a steel pipe.

The following description is of the preferred embodiment of the invention, but is not intended to be Limitation of the general principle of the invention.

Fig.l shows a schematic side view for illustration the principle of detecting the position of an underground pipe 2 in a non-dry state for the promotion of town gas using an electrically conductive wire 1. With the z. B. The pipe 2 made of synthetic resin such as polyethylene are branch pipes 3 and 4 made of an electrically insulating one Synthetic resin connected. The branch pipes 3 and 4 are further connected to steel pipes 5 and 6 attached to gas burners 9 and 10 via gas meters 7 and 8 for using the town gas, for example in houses, etc. are closed. Along the pipe 2 is the electrical one conductive wire 1 is provided connected to one end of each of the electrically conductive wires 11 and 12, which are arranged along the branch pipes 3 and 4. The conductive wires 11 and 12 have a similar structure like that of the conductive wire 1. The other ends of the conductive wires 11 and 12 are connected to the steel pipes 5 and 12 respectively. connected in a manner described in more detail below with reference to FIG.

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To detect the location where the pipe 2 is laid from the surface of the earth, output terminals of a high frequency power source 13 are connected between the steel pipes 5 and 6 as shown. The high frequency power source 13 is electric power with frequencies z. B. in the range of 2 kHz to 100 kHz with a voltage of less than approximately 60 volts. By detecting the electromagnetic waves that are radiated from the conductive wire 1 to the surface, it is possible, the location of the tube 2 under the ground to find, ^as £ longitudinally of the conductive wire 1 extends. The conductive wire 1 and tube 2 described above are installed underground in the depths of e.g. B. moved 0.6 to 1.2 m from the surface of the earth.

FIG. 2 shows the manner in which the electrically conductive wire 1 is attached along the tube 2 according to a preferred exemplary embodiment of the invention. According to this embodiment, the conductive wire 1 is, for example, on a straight line along the axis of the tube 2 arranged, with strips 14, which simultaneously the outer circumference of the tube 2 and that of the conductive Surrounding the wire, fix the conductive wire to the outer circumference of the tube 2.

In Fig. 3, a modification of the arrangement in Fig. 2 is shown, after which the conductive wire 1 according to the Invention is also provided along the pipe 2. According to this modification, the conductive wire is helical or spirally around the outer circumference of the tube 2, and therefore the for the arrangement in Fig. 2 The bands 14 described in the modification according to FIG. 3 are omitted.

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In the context of the arrangement according to FIG. 1, the position of the conductive wire 1 and consequently that of the pipe 2 from the surface of the earth can alternatively be applied a method, after which an electrode 15 is lowered into the ground, the electric current between this electrode 15 and the steel pipe 6 or 5 is applied from a high frequency power source 16.

Fig. 4 shows the electrically conductive wire according to a preferred embodiment of the invention, with a part broken away for the sake of clarity. The conductive wire 1 is made by applying a coating layer 18 to a metallic core wire 17. The metallic material, such as. B. copper, iron, etc., which are good conductors of electrical currents, existing core wire 17 is obtained by twisting or stranding a plurality of individual wires and has flexibility. The oil coating layer 18 consists of a high polymer organic material and also has flexibility and electrical conductivity. The above-described coating layer 18 may be composed of a material obtained by mixing carbon powder or a metallic powder in a synthetic resin such as resin. B. polyethylene, etc., synthetic rubber or natural rubber, and should have a specific resistance between approximately 10 -Π-. cm and approximately below 50,000 -CL. cm, preferably 100 -Π-. cm have. The coating layer 18 having the specific resistance in the range described above can be obtained by mixing 50 to 60 parts by weight of acetylenic carbon with 100 parts by weight of chloroprene rubber or natural rubber and so on. If the resistivity of the

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Coating layer 18 under about 10-A-. cm is Mixing ratio of the carbon powder or metallic powder compared with the amount of the Resin or rubber too high, resulting in poor flexibility, making it difficult is to manufacture the electrically conductive wire 1 according to the invention. On the other hand, it will be when the resistivity of the coating layer 18 is about 50,000 JT-. cm and one accordingly has higher insulating effect, completely impossible to perform the detection when the conductive wire is intersected, as noted above with respect to the prior art.

5, which shows a connection state of the conductive wires 1, the ends of the to be connected Conductive wires 1 laid one on top of the other in parallel, as shown, and with one another. Strands bound together from an electrically conductive or electrically insulating material. In the above described Thus, the coating layers 18 are electrically connected to one another, and also without a direct one Connection between the core wires 17, the conductive wires 1 can be brought into the state where they are electrically connected.

6, the connection state between the conductive wire provided on the branch pipe 3 and the steel pipe 5 shows, the conductive wire having the structure similar to the conductive wire 1 becomes wound around the steel pipe according to the above explanations, by which arrangement it is possible that electric current flows through the conductive wire 11 and the steel pipe 5. Accordingly, the one for connection

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work required between the conductive wire 11 and the steel pipe 5 is greatly simplified. Similar Methods as described above can also be used for the connection between the length of the branch pipe provided conductive wire 12 and the steel pipe 6 can be performed. One end 17a of the core wire can be freed from the coating layer 18 and by soldering or thermite welding to the steel pipe 5 It should be noted here that, although not specifically shown, another Modification according to the invention is also possible a single wire can be formed with sufficient flexibility. It should also be noted that the concept of the invention in its application not to the pipe 2 and the branch pipes 3 and 4, as in the examples described above, but broadly to various others elongated, underground laid objects is applicable.

example

Referring to Fig. 1, the conductive wire 1 according to the invention as shown in Fig. 4 and the pipe 2 laid approximately 1.2 m below the surface of the earth. The power source 13 supplies electrical power with 2 kHz and 6 V. It was found that the position of the pipe 2 on the earth's surface along 100 to 200 m between the tubes 3 and 4 can be detected in the case where the wire 1 is continuous. It was also found that the position of the pipe 2 on the surface of the earth

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along 40 to 100 m between the pipes 3 and 4 can be detected in the case where the earth is in a range of the specific resistance of 1000Jl-. cm to 5 OOOil. cm and a part of the wire 1 is cut to a length of approximately 0.5 to 1.0 m.

In contrast, it is when the conventional electrically conductive, with the electrically insulating plastic material coated wire is used instead of the wire 1, impossible to grasp the tube 2 in the case where the 0.5 to 1.0 m long portion of the conventional wire is cut off.

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Claims (6)

Patent claims 1.) Method for detecting the position of an object of continuous length underground by means of electromagnetic waves emitted by a wire laid along the object, characterized in that the electrically conductive wire (1) is covered by covering it a flexible metallic core wire (17) with an outer coating layer (18) made of a flexible and electrically conductive high polymer organis dien material produces, the electrically conductive wire (1) below the earth along the underground laid object (2) arranges, the electrically conductive wire (1) a High frequency power supplies and emitted electromagnetic Waves to capture the underground laid object (2) intercepts. 2. The method according to claim 1,
characterized, that the high frequency current is supplied between the ends of the electrically conductive wire (1). 3. Electrically conductive wire for performing the method according to claim 1 or 2, characterized, that he has a flexible metallic core wire (17) Ol48- (55-35 61I) -TF 130062/0664 and an outer coating layer (18) made of a material applied to the flexible metallic core wire (17) having flexible and electrically conductive high polymer organic material. 4. Electrically conductive wire according to claim 3, characterized in that that the outer coating layer (18) by optionally mixing carbon powder or metal powder in Synthetic resin or rubber is made. 5. Electrically conductive wire according to claim 3 or 4, characterized in that that the outer coating layer (18) has a specific resistance in the range between approximately over 10 SL . cm and below 50,000 -TL.cm. 6. Electrically conductive wire according to claim 3 or 4, characterized in that that the outer coating layer (18) preferably has a resistivity of approximately 100 S \ -. cm. 130062/0664